ENTERPRISE SOLUTIONS
Architects, engineers, builders, miners, and governments all benefit from the use of drone technology. We offer 3D Photogrammetry (3D modeling of the real world), 2D Mapping, infrastructure inspections, and project progress monitoring - all serving your end goal of completing your projects accurately, within budget and on time.
Project Monitoring
​Drones are invaluable tools for monitoring the progress of job sites across various industries. Equipped with high-resolution cameras and advanced sensors, drones provide real-time aerial imagining that capture detailed photos and videos of construction activities. This capability allows project managers to remotely track progress, assess work quality, and monitor adherence to schedules. By regularly capturing and analyzing data from drone flights, stakeholders can make informed decisions, optimize resource allocation, and ensure projects stay on track efficiently. Drones streamline the monitoring process, offering a cost-effective and efficient alternative to traditional site inspection methods.
3D Photogrammetry
3D photogrammetry is a powerful tool that finds extensive applications across various industries utilizing drone technology. One of its top use cases includes:
Construction and Engineering:
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In the construction and engineering sectors, 3D photogrammetry enables precise and detailed mapping of construction sites, infrastructure, and buildings. Here's how it is utilized:
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Site Planning and Design: Engineers and architects use 3D photogrammetry to create highly accurate 3D models of terrain and existing structures. These models aid in initial site assessments, allowing for better planning and design decisions.
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Progress Monitoring: Throughout the construction phase, drones equipped with photogrammetry capabilities capture images that are stitched together to create up-to-date 3D maps. Project managers and stakeholders can monitor progress remotely, identify discrepancies between plans and reality, and make informed decisions to keep projects on track.
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As-Built Documentation: Once construction is complete, drones perform final surveys to capture detailed as-built conditions in 3D. This documentation is crucial for compliance, future maintenance, and renovation projects.
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Quality Control and Inspections: 3D models generated through photogrammetry allow for detailed inspections of structures. Engineers can analyze dimensions, detect defects, and assess structural integrity without physically accessing every part of the site, thus improving efficiency and safety.
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Collaboration and Communication: 3D models provide a clear visual representation that enhances communication among project teams, clients, and stakeholders. Complex information is easier to convey and understand, fostering better collaboration and reducing misunderstandings.
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Overall, 3D photogrammetry in construction and engineering revolutionizes project management by providing accurate, timely, and comprehensive spatial data. It improves efficiency, reduces costs, and enhances decision-making throughout the project lifecycle.
2D Mapping
Drone Surveying and Planning: Drones capture high-resolution aerial images to create detailed 2D maps of construction sites and existing infrastructure. These maps are essential for initial site assessments, feasibility studies, and project planning.
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Project Monitoring and Management: Throughout construction phases, drones update 2D maps to monitor progress, track resources, and ensure project timelines and specifications are met.
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Asset Management: Developers and managers use 2D maps to manage assets effectively, including infrastructure networks and utilities, optimizing maintenance and compliance with regulations.
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Safety and Compliance: Drones assist in safety inspections and compliance monitoring by providing detailed 2D maps of construction sites, helping identify hazards and ensuring adherence to safety standards.
Client Communication: 2D maps enhance communication with clients and stakeholders by providing visual representations of project progress and site conditions, facilitating transparent reporting and decision-making.
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2D mapping with drones improves efficiency, reduces costs, enhances safety, and supports informed decision-making across construction and engineering projects.
Inspections
Drone Inspections offer significant advantages for inspecting critical infrastructure such as cell towers, wind turbines, and solar farms:
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Cost Efficiency: Drones reduce inspection costs by minimizing the need for manual inspections and scaffolding, while covering large and complex structures more quickly.​
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Safety: By eliminating the need for personnel to climb structures, drones enhance safety during inspections, reducing risks to workers.
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Accessibility: Drones can access hard-to-reach or hazardous areas, providing detailed inspections of structures that are otherwise challenging to inspect manually.
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Data Accuracy and Detail: High-resolution cameras and sensors on drones capture detailed imagery and data, enabling precise inspection of components and identifying potential issues early.
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Timeliness: Drones facilitate frequent and timely inspections, allowing for proactive maintenance and reducing downtime of critical infrastructure.
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Reporting and Documentation: Drone-captured data is used to generate comprehensive reports and documentation, aiding in regulatory compliance, maintenance planning, and decision-making.
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Using drones for inspections enhances efficiency, safety, and reliability in monitoring and maintaining infrastructure like cell towers, wind turbines, and solar farms, ensuring optimal performance and longevity of assets.